Floating brush sweeper

ABSTRACT

This invention relates to an industrial street sweeper and especially to a street sweeper having a floating sweeper brush which varies the downward force on the rotating brush on the surface being swept to float the brush over the surface.

This application claims the benefit of provisional application Ser. No. 62/056,997, filed Sep. 29, 2014 for FLOATING BRUSH SWEEPER.

FIELD OF THE INVENTION

This invention relates to an industrial street sweeper and especially to a street sweeper having a floating sweeper brush which varies the downward force on the rotating brush on the surface being swept to float the brush over the surface.

BACKGROUND OF THE INVENTION

Industrial sweepers used in cleaning streets and the like have a rotating brush mounted to the front or rear of a motorized vehicle. An electric or hydraulic motor drives the rotating brush or brushes along the surface of the area being cleaned sweeping material into a bucket. The brush is controlled from the vehicle's cab with hydraulic or electric controls. The brush of the sweeper needs to be mounted in a position to sweep the area being traversed for cleaning the surface. The invention uses a pair of hydraulic cylinders which are used to raise and lower the sweeper brush and to float the brush along the surface of the area being swept to vary the force of the sweeper brush on the surface.

One prior art U.S. Pat. No. 7,428,767 to Lougheed is for a sweeper which has a floating brush or drum assembly. A sweeper has a rotating brush or drum supported by a float arm movably coupled to the sweeper bucket. The float arm is coupled to a linkage to movably support the float arm between a retracted position and a forward position. The float arm is rotationally coupled to the linkage to compensate for height variations and provide a mechanism to rotate the linkage to move the float arm forward relative to the debris collection bucket. The present invention is for an improved floating sweeper brush and lift mechanism using a pair of parallel hydraulic cylinders operating in conjunction with mechanical linkage supporting the sweeper brush.

SUMMARY OF THE INVENTION

This invention relates to an industrial street sweeper and especially to a street sweeper having a floating sweeper brush which varies the downward force on the rotating brush on the surface being swept to float the brush over the surface.

The floating brush sweeper attachment has a sweeper brush supporting frame rotatably supporting a sweeper brush frame having a hydraulic motor mounting thereon for rotating the sweeper brush on said frame. A frame supporting linkage is attached between the sweeper brush frame and a frame supporting plate to movably support the sweeper brush frame. A lift hydraulic cylinder is attached between the sweeper brush frame and the frame supporting bracket for raising and lowering the sweeper brush frame responsive to actuation of the lift hydraulic cylinder. A floating hydraulic cylinder is attached between the sweeper brush frame and the frame supporting bracket for moving the sweeper brush frame up or down responsive to actuation of the floating hydraulic cylinder. A hydraulic fluid line is operatively connected from the sweeper brush frame motor to the floating cylinder and has a pressure actuated valve operatively coupled therein between the sweeper brush frame motor and the floating hydraulic cylinder. The valve opens and closes responsive to predetermined hydraulic fluid pressure in the hydraulic motor to raise or lower the sweeper brush frame. The hydraulic pressure in the sweeper brush frame motor varies in accordance with the force required to drive the sweeper brush which varies according to the friction between the brush and the surface being swept which varies according to the contact between the brush and the surface. Thus the sweeper brush is raised and lowered responsive to hydraulic pressure in said sweeper motor.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are included to provide further understanding of the invention, are incorporated in and constitute a part of the specification and illustrate an embodiment of the invention and, together with the description, serve to explain the principles of the invention.

FIG. 1 is a perspective view of a floating brush sweeper attachment in accordance with the present invention;

FIG. 2 is a side elevation of a brush sweeper attachment attached to a wheeled vehicle;

FIG. 3 is an exploded perspective view of the floating brush sweeper attachment of FIG. 1;

FIG. 4 is an exploded perspective view of the floating brush sweeper attachment floating linkage of FIGS. 1 and 3; and

FIG. 5 is a diagrammatic flow diagram for the hydraulics of the floating brush sweeper in accordance with the present invention.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENT

In this description of the present invention in FIGS. 1 through 5, the following list of components are identified with the adjacent numerals as follows:

-   -   1. Front Plate     -   2. Rear Plate     -   3. Pivot Plate Upper     -   4. Lift Plate Pins     -   5. Lift Plate Yoke Ears     -   6. Upper Lift Plate     -   7. Lower Lift Plate     -   8. Lift Cylinder     -   9. Float Cylinder     -   10. Alignment Pin     -   11. Front Plate Parallel Cylinder Gussets     -   12. Cylinder Pins     -   13. Lower Pivot Plate     -   14. Float Relief Valve     -   15. Complete Lift Assembly     -   16. Rear Yoke Cylinder Parallel Gussets     -   17. Front Yoke Assembly     -   18. Rear Yoke Assembly     -   19. Lift Cylinder Valve     -   20. Brush Motor     -   21. Brush     -   22. Brush Frame     -   23. Pivot hydraulic cylinder     -   24. Lift cylinder hydraulic fluid reservoir     -   25. Floating cylinder hydraulic fluid reservoir     -   26. Lift cylinder hydraulic fluid pump     -   27. Floating cylinder hydraulic fluid pump     -   28. Flow control valve     -   29. Quick change cylinder     -   30. Quick change valve     -   31. Brush motor valve     -   32. Wheeled vehicle

The present invention is for an industrial sweeper machine as shown in FIGS. 1 and 2 which uses a hydraulic system to control the downward force of the sweeper brush onto the surface being swept.

The system as shown in the drawings, FIGS. 1 through 5, and especially as seen in FIGS. 1, 3 and 4, uses a lift assembly 15 attached to a wheeled vehicle 32 having a forward assembly called a front yoke. This front yoke assembly 17 includes a main plate having an upper and lower pivot plate 3 and 13 attached to the main plate by welding. The main plate also has two cylinder gussets attached thereto by welding and has four lift plate ears 5 also attached thereto by welding.

The system also includes a lift assembly which includes a rear main plate 2 that has two cylinder gussets 16 to receive the parallel cylinders 8 and 9, and four lift plate ears 5 attached to the rear plate 2 by welding. A center leveling alignment pin 10 allows the rear plate 2 to rotate with respect to a mount plate allowing for a means to level the brush. The rear plate 2 and the mount or front plate 1 have means to bolt together to secure the positioning between the rear yoke plate 18 and the front plate 1.

The front plate 1 and the rear plate 2 are held in the vertical arrangement of an upper lift plate 6 and a lower lift plate 7. The upper and lower plates 6 and 7 are attached to the front and rear plate by pins 4 that hold the upper and lower plates 6 and 7 in position in a parallel arrangement. The parallel cylinders 8 & 9 are attached to the front and rear yoke plates 17 and 18 with pins 12 that locate the cylinders in a parallel configuration. When hydraulic fluid pressure is applied to the lift cylinder, the lift assembly 15 changes its configuration to lower or lift the assembly. When the lift cylinder 8 is placed in a neutral position by means of a hydraulic valve, the lift cylinder 8 no longer controls the lift assembly 15 position and the float cylinder 9 controls the position of the lift assembly 15. Hydraulic fluid pressure is applied through an adjustable valve to the float cylinder by the adjustable valve from a variable hydraulic fluid source. A hydraulic driven brush motor 20 drives the sweeper brush 21 which is supported on the brush frame 22. When the brush contacts the surface being swept, hydraulic fluid pressure is diverted over an adjustable relief valve into the float cylinder 9 allowing for a constant source of flowing fluid to maintain a constant brush 21 contact pressure with an area being swept. The fluid pressure supplied by the brush motor 20 is a variable pressure supply of fluid so that when the brush 21 contacts the surface increases due to a rise in the surface being swept, the pressurized fluid opens the relief valve 14 that supplies the hydraulic fluid to the float cylinder 9. As the float cylinder 9 raises the lift assembly 15, which raises the brush 21, the fluid pressure is decreased to the float cylinder 9 and as the brush 21 rises, the pressure is reduced and the relief valve closes. When the brush 21 loses contact pressure with the surface being swept, the float cylinder 9 collapses to allow the brush 21 to settle down to achieve the motor pressure that the relief valve is set for.

As can be seen from the drawings, a lift assembly 15 is used to control the up and down motion and the left to right swing motion of a brush frame 22 to move the position of the brush 21. This gives the brush 21 the ability to float over the area being swept and to control the contact pressure against the surface being swept.

A complete lift assembly 15 has a front yoke plate 1, which has means for a brush frame 22 to mount thereto with upper and lower pivot plates 3 and 13. The means to attach the upper lift plate 6 and a lower lift plate 7 is accomplished by the use of four lift plate yoke ears 5. The ears 5 are welded in place and have means to accept a spherical bearing. A pivot hydraulic cylinder 23 pivots the brush frame 15.

The lift cylinder 8 and the float cylinder are welded in a precise location to a pair of cylinder gussets 11. The gussets 11 are positioned on front plate 1 in a precise location above the center line of front plate 1 to accept the lift cylinder 8 and float cylinder 9. Cylinder pins 12 secure cylinders 8 and 9 in place.

The complete parallel lift assembly 15 has a rear yoke assembly 18 having a rear yoke plate 2 that has four lift plate yoke ears 5 and a pair of cylinder gussets 11 to mount cylinders 8 and 9. The rear yoke cylinder parallel gussets 16 are welded to the rear yoke plate 2 positioned below the center position on rear plate 2. The rear yoke cylinder parallel gusset 16 is welded below the center position on plate 2. This position of the front plate parallel cylinder gussets 11 and rear yoke cylinder parallel gussets 16 provide the means for the complete lift assembly 15 to raise and lower the brush frame with lift cylinder 8.

Lift cylinder 8 is necessary for an operator to be able to lift and lower the brush frame 22 with the complete lift assembly 15 since lift cylinder 8 extends the configuration of the complete lift assembly 15 and raises the front plate 1 above the rear yoke assembly 18. As lift cylinder is retracted, the front yoke assembly 17 is lowered in relation to the rear yoke assembly 18.

Control of the force applied by the brush to the surface being cleaned is done by means of the float cylinder 9. Float cylinder 9 is mounted parallel to lift cylinder 8 by means of rear yoke cylinder gusset 16 and front plate cylinder gusset 11 which are held in place by cylinder pins 12.

Floating the brush hydraulically is done with a supply of hydraulic fluid that is variable in flow rate and variable in fluid pressure. Changing the flow rate and pressure is necessary to maintain an even contact force between the brush 21 and the surface being swept. As the sweeping machine maneuvers over an uneven surface, the brush contact force varies thereby producing either more or less fluid pressure in the brush motor supply line. When the pressure of the brush 21 against the surface being cleaned increases, the hydraulic fluid pressure increases proportionally to the float cylinder 9 by the relief valve 14 to raise the brush 21 and as the hydraulic fluid pressure decreases by the brush 21 having less contact with the surface being swept, the hydraulic fluid flows back out of the cylinder 9 allowing the brush to settle onto the surface being cleaned until the contact force is matched to the relief setting.

The variable flow and pressure of the hydraulic fluid in the hydraulic pressure line feeds the brush motor 20 from the reservoir 25 and pump 27 through a brush motor 32. This pressurized hydraulic fluid is directed to the relief valve 14. The relief valve 14 is adjusted so that the contact force necessary for a clean sweep is achieved by the pressure increase in the motor pressure line until it reaches a point that it bypasses the relief setting and is directed to the cylinder 9. This raises the lift assembly 15 which in turn lowers the motor pressure so that pressurized hydraulic fluid no longer passes through the relief valve 14.

This floating action would not be possible without the variable pressurized hydraulic fluid generated by the brush motor 20. This requires the placement of lift cylinder 8 in a neutral position so that the variable floating action of float cylinder 9 can take place.

The lift cylinder valve 19 has multiple positions which allows the float cylinder 9 to function. The lift cylinder valve 19 has a lift, blocked neutral, down and float positions. When the lift cylinder valve 19 is in its float position, hydraulic fluid is allowed to be cycled in and out of a fluid reservoir 24 and pump by the action of the lift cylinder 8 being cycled by the variable forces being applied to the float cylinder 9 by means of the hydraulic fluid pressure directed from the brush motor 20 that is allowed to pass over float relief valve 14 as the pressure from the brush motor 20 exceeds the setting on the float relief valve 14. When the operator wants to lift the lift assembly 15, the lift cylinder valve 19 directs the hydraulic fluid to the lift cylinder 8. When the operator wants to lower the lift assembly 15, the lift cylinder valve 19 is directed to a down position. When the operator wants to hold the lift assembly 15 in a suspended position or in a forced down position, the operator positions cylinder valve in a blocked neutral position. This block position of cylinder valve 19 overrides any pressure that is directed to the float cylinder 9. A valve with a detent float position is used to allow the lift cylinder 8 to be in a position that allows it to move freely allowing the float cylinder 9 to function when cylinder valve 19 is in a detent position to raise or hold the lift assembly 15 in a certain position or to lower lift assembly 15. The act of raising or lowering or even holding the lift assembly 15 in a fixed position is not affected by any force that may be applied to float cylinder 9.

As seen in FIG. 5, the improved float system is accomplished with the lift cylinder 8 and the float cylinder 9 operating with hydraulic fluid from two different sources. Lift cylinder 8 receives hydraulic fluid from the prime movers lift cylinder valve 19. The float cylinder 9 receives its hydraulic fluid from the brush motor 20. A flow control valve 28 controls the flow from the reservoir 25 and pump 27 to the quick change cylinder 30 through the quick change valve 31.

The improved brush float system can function with two sources of hydraulic fluid such as a tractor that uses its own hydraulic fluid and lift valve, and an assembly or attachment such as a sweeper that would use a separate source of hydraulic fluid to supply the brush motor 20 to provide a variable supply of hydraulic fluid to the float cylinder 9.

It should be clear at this time that a floating brush system for a street sweeping machine has been provided which varies the brush pressure on the surface being swept as the surface being swept varies. However the present invention is not to be considered limited to the forms shown which are to be considered illustrative rather than restrictive. 

I claim:
 1. A floating sweeper brush attachment comprising: a sweeper brush frame rotatably supporting a sweeper brush, said sweeper brush frame having a hydraulic brush motor mounting thereon for rotating said sweeper brush on said frame; a linkage attached between said sweeper brush frame and a frame supporting plate to movably support said sweeper brush frame to said frame supporting plate; a lift hydraulic cylinder attached between said sweeper brush frame and said frame supporting plate for raising and lowering said sweeper brush frame responsive to actuation of said lift hydraulic cylinder; a floating hydraulic cylinder attached between said sweeper brush frame and said frame supporting plate for moving said sweeper brush frame responsive to actuation of said floating hydraulic cylinder; a hydraulic fluid line operatively connected from said sweeper brush frame hydraulic brush motor to said floating hydraulic cylinder; a hydraulic fluid pressure actuated valve operatively coupled in said hydraulic fluid line between said sweeper brush frame hydraulic brush motor and said floating hydraulic cylinder, said valve being opened and closed responsive to predetermined hydraulic fluid pressure in said sweeper brush hydraulic motor for raising or lowering said sweeper brush frame and sweeper brush; whereby a sweeper brush frame and sweeper brush is raised and lowered responsive to hydraulic pressure in said sweeper motor.
 2. The floating sweeper brush attachment in accordance with claim 1 in which said linkage has a frame lift plate movably attached to said sweeper brush frame on one end and movably attached to the frame supporting plate on the other end thereof.
 3. The floating sweeper brush attachment in accordance with claim 2 in which said linkage has two frame lift plates each movably attached to said sweeper brush frame on one end and movably attached to the frame supporting plate on the other end thereof.
 4. The floating sweeper brush attachment in accordance with claim 1 in which said sweeper brush frame has a linkage connecting plate pivotally supporting said sweeper brush frame to one end of said linkage.
 5. The floating sweeper brush attachment in accordance with claim 4 in which said linkage connecting plate has a hydraulic cylinder connecting said linkage connecting plate to said sweeper brush frame for pivoting said sweeper brush frame thereon.
 6. The floating sweeper brush attachment in accordance with claim 5 in which said linkage connecting plate has a pair of hydraulic cylinders for pivoting said sweeper brush frame thereon.
 7. The floating sweeper brush attachment in accordance with claim 1 in which said lift hydraulic cylinder is manually remotely controlled to raise or lower said sweeper brush frame and sweeper brush.
 8. The floating sweeper brush attachment in accordance with claim 1 in which said lift hydraulic cylinder and said floating hydraulic cylinder are manually remotely controlled to jointly raise or lower said sweeper brush frame and sweeper brush.
 9. The floating sweeper brush attachment in accordance with claim 1 including a first hydraulic fluid reservoir and pump supplying said hydraulic lift cylinder and a second hydraulic fluid reservoir and pump supplying said hydraulic brush motor and hydraulic float cylinder.
 10. A floating sweeper brush attachment for a wheeled vehicle comprising: a sweeper brush frame rotatably supporting a sweeper brush, said sweeper brush frame having a hydraulic brush motor mounting thereon for rotating said sweeper brush on said frame; a linkage attached between a front plate attached to said sweeper brush frame and a rear support plate attached to a wheeled vehicle to moveably support said sweeper brush frame and sweeper brush to said wheeled vehicle; a lift hydraulic cylinder attached between said sweeper brush front plate and said rear support plate for raising and lowering said sweeper brush frame responsive to actuation of said lift hydraulic cylinder; a floating hydraulic cylinder attached between said sweeper brush front plate and said rear support plate for moving said sweeper brush frame responsive to actuation of said floating hydraulic cylinder; a hydraulic fluid line operatively connected from said sweeper brush frame hydraulic brush motor to said floating hydraulic cylinder; and a hydraulic fluid pressure controlled valve operatively coupled to said hydraulic fluid in said hydraulic brush motor to control actuation of said floating hydraulic cylinder responsive to hydraulic fluid pressure in said sweeper brush hydraulic motor for floating said sweeper brush frame and sweeper brush; whereby a sweeper brush frame and sweeper brush is raised and lowered responsive to hydraulic pressure in the hydraulic fluid in said sweeper motor.
 11. The floating sweeper brush attachment for a wheeled vehicle in accordance with claim 10 including a first hydraulic fluid reservoir and pump supplying said hydraulic lift cylinder and a second hydraulic fluid reservoir and pump supplying said hydraulic brush motor and hydraulic float cylinder.
 12. The floating sweeper brush attachment in accordance with claim 10 in which said linkage has a frame lift plate movably attached between said front plate and said rear support plate movably supporting said frame to said rear support plate.
 13. The floating sweeper brush attachment in accordance with claim 12 in which said linkage has two frame lift plates movably attached between said front plate and said rear support plate movably supporting said frame to said rear support plate.
 14. The floating sweeper brush attachment in accordance with claim 10 in which said sweeper brush frame has a linkage connecting plate pivotally supporting said sweeper brush frame to one end of said front plate.
 15. The floating sweeper brush attachment in accordance with claim 14 in which said linkage connecting plate has a hydraulic cylinder connecting said linkage connecting plate to said sweeper brush frame for pivoting said sweeper brush frame thereon.
 16. The floating sweeper brush attachment in accordance with claim 10 in which said lift hydraulic cylinder is manually remotely controlled to raise or lower said sweeper brush frame and sweeper brush.
 17. The floating sweeper brush attachment in accordance with claim 16 in which said lift hydraulic cylinder and said floating hydraulic cylinder are manually remotely controlled to jointly raise or lower said sweeper brush frame and sweeper brush. 